# -*- test-case-name: twisted.test.test_text -*-
#
# Copyright (c) 2001-2010 Twisted Matrix Laboratories.
# See LICENSE for details.


"""
Miscellany of text-munging functions.
"""

import string, types

from twisted.python import deprecate, versions


def stringyString(object, indentation=''):
    """
    Expansive string formatting for sequence types.

    list.__str__ and dict.__str__ use repr() to display their
    elements.  This function also turns these sequence types
    into strings, but uses str() on their elements instead.

    Sequence elements are also displayed on seperate lines,
    and nested sequences have nested indentation.
    """
    braces = ''
    sl = []

    if type(object) is types.DictType:
        braces = '{}'
        for key, value in object.items():
            value = stringyString(value, indentation + '   ')
            if isMultiline(value):
                if endsInNewline(value):
                    value = value[:-len('\n')]
                sl.append("%s %s:\n%s" % (indentation, key, value))
            else:
                # Oops.  Will have to move that indentation.
                sl.append("%s %s: %s" % (indentation, key,
                                         value[len(indentation) + 3:]))

    elif type(object) in (types.TupleType, types.ListType):
        if type(object) is types.TupleType:
            braces = '()'
        else:
            braces = '[]'

        for element in object:
            element = stringyString(element, indentation + ' ')
            sl.append(string.rstrip(element) + ',')
    else:
        sl[:] = map(lambda s, i=indentation: i+s,
                    string.split(str(object),'\n'))

    if not sl:
        sl.append(indentation)

    if braces:
        sl[0] = indentation + braces[0] + sl[0][len(indentation) + 1:]
        sl[-1] = sl[-1] + braces[-1]

    s = string.join(sl, "\n")

    if isMultiline(s) and not endsInNewline(s):
        s = s + '\n'

    return s

def isMultiline(s):
    """Returns True if this string has a newline in it."""
    return (string.find(s, '\n') != -1)

def endsInNewline(s):
    """Returns True if this string ends in a newline."""
    return (s[-len('\n'):] == '\n')



deprecate.deprecatedModuleAttribute(
    versions.Version("Twisted", 10, 2, 0),
    "Please use inspect.getdoc instead.",
    __name__, "docstringLStrip")



def docstringLStrip(docstring):
    """
    Gets rid of unsightly lefthand docstring whitespace residue.

    You'd think someone would have done this already, but apparently
    not in 1.5.2.

    BUT since we're all using Python 2.1 now, use L{inspect.getdoc}
    instead.  I{This function should go away soon.}
    """

    if not docstring:
        return docstring

    docstring = string.replace(docstring, '\t', ' ' * 8)
    lines = string.split(docstring,'\n')

    leading = 0
    for l in xrange(1,len(lines)):
        line = lines[l]
        if string.strip(line):
            while 1:
                if line[leading] == ' ':
                    leading = leading + 1
                else:
                    break
        if leading:
            break

    outlines = lines[0:1]
    for l in xrange(1,len(lines)):
        outlines.append(lines[l][leading:])

    return string.join(outlines, '\n')

def greedyWrap(inString, width=80):
    """Given a string and a column width, return a list of lines.

    Caveat: I'm use a stupid greedy word-wrapping
    algorythm.  I won't put two spaces at the end
    of a sentence.  I don't do full justification.
    And no, I've never even *heard* of hypenation.
    """

    outLines = []

    #eww, evil hacks to allow paragraphs delimited by two \ns :(
    if inString.find('\n\n') >= 0:
        paragraphs = string.split(inString, '\n\n')
        for para in paragraphs:
            outLines.extend(greedyWrap(para) + [''])
        return outLines
    inWords = string.split(inString)

    column = 0
    ptr_line = 0
    while inWords:
        column = column + len(inWords[ptr_line])
        ptr_line = ptr_line + 1

        if (column > width):
            if ptr_line == 1:
                # This single word is too long, it will be the whole line.
                pass
            else:
                # We've gone too far, stop the line one word back.
                ptr_line = ptr_line - 1
            (l, inWords) = (inWords[0:ptr_line], inWords[ptr_line:])
            outLines.append(string.join(l,' '))

            ptr_line = 0
            column = 0
        elif not (len(inWords) > ptr_line):
            # Clean up the last bit.
            outLines.append(string.join(inWords, ' '))
            del inWords[:]
        else:
            # Space
            column = column + 1
    # next word

    return outLines


wordWrap = greedyWrap

def removeLeadingBlanks(lines):
    ret = []
    for line in lines:
        if ret or line.strip():
            ret.append(line)
    return ret

def removeLeadingTrailingBlanks(s):
    lines = removeLeadingBlanks(s.split('\n'))
    lines.reverse()
    lines = removeLeadingBlanks(lines)
    lines.reverse()
    return '\n'.join(lines)+'\n'

def splitQuoted(s):
    """Like string.split, but don't break substrings inside quotes.

    >>> splitQuoted('the \"hairy monkey\" likes pie')
    ['the', 'hairy monkey', 'likes', 'pie']

    Another one of those \"someone must have a better solution for
    this\" things.  This implementation is a VERY DUMB hack done too
    quickly.
    """
    out = []
    quot = None
    phrase = None
    for word in s.split():
        if phrase is None:
            if word and (word[0] in ("\"", "'")):
                quot = word[0]
                word = word[1:]
                phrase = []

        if phrase is None:
            out.append(word)
        else:
            if word and (word[-1] == quot):
                word = word[:-1]
                phrase.append(word)
                out.append(" ".join(phrase))
                phrase = None
            else:
                phrase.append(word)

    return out

def strFile(p, f, caseSensitive=True):
    """Find whether string p occurs in a read()able object f
    @rtype: C{bool}
    """
    buf = ""
    buf_len = max(len(p), 2**2**2**2)
    if not caseSensitive:
        p = p.lower()
    while 1:
        r = f.read(buf_len-len(p))
        if not caseSensitive:
            r = r.lower()
        bytes_read = len(r)
        if bytes_read == 0:
            return False
        l = len(buf)+bytes_read-buf_len
        if l <= 0:
            buf = buf + r
        else:
            buf = buf[l:] + r
        if buf.find(p) != -1:
            return True

